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  <h1>Tags </h1>
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<div class="row">
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<ul class="tag_box inline">
    
  


  
     
    	<li><a href="/tags.html#bone remodeling-ref">bone remodeling <span>1</span></a></li>
     
    	<li><a href="/tags.html#cancellous bone-ref">cancellous bone <span>1</span></a></li>
     
    	<li><a href="/tags.html#epifluorescence microscopy-ref">epifluorescence microscopy <span>1</span></a></li>
     
    	<li><a href="/tags.html#fluorescence imaging-ref">fluorescence imaging <span>1</span></a></li>
     
    	<li><a href="/tags.html#histomorphometry-ref">histomorphometry <span>1</span></a></li>
     
    	<li><a href="/tags.html#image processing-ref">image processing <span>1</span></a></li>
     
    	<li><a href="/tags.html#Mechanism reduction-ref">Mechanism reduction <span>3</span></a></li>
     
    	<li><a href="/tags.html#model reduction-ref">model reduction <span>9</span></a></li>
     
    	<li><a href="/tags.html#directed relation graph-ref">directed relation graph <span>2</span></a></li>
     
    	<li><a href="/tags.html#skeletal mechanism-ref">skeletal mechanism <span>3</span></a></li>
     
    	<li><a href="/tags.html#surrogate fuels-ref">surrogate fuels <span>4</span></a></li>
     
    	<li><a href="/tags.html#n-heptane-ref">n-heptane <span>1</span></a></li>
     
    	<li><a href="/tags.html#iso-octane-ref">iso-octane <span>1</span></a></li>
     
    	<li><a href="/tags.html#n-decane-ref">n-decane <span>1</span></a></li>
     
    	<li><a href="/tags.html#DRG-ref">DRG <span>1</span></a></li>
     
    	<li><a href="/tags.html#DRGEP-ref">DRGEP <span>1</span></a></li>
     
    	<li><a href="/tags.html#graph search algorithm-ref">graph search algorithm <span>1</span></a></li>
     
    	<li><a href="/tags.html#Dijkstra's algorithm-ref">Dijkstra's algorithm <span>1</span></a></li>
     
    	<li><a href="/tags.html#reactive-flow modeling-ref">reactive-flow modeling <span>1</span></a></li>
     
    	<li><a href="/tags.html#GPU-ref">GPU <span>5</span></a></li>
     
    	<li><a href="/tags.html#chemical kinetics-ref">chemical kinetics <span>7</span></a></li>
     
    	<li><a href="/tags.html#stiff chemistry-ref">stiff chemistry <span>3</span></a></li>
     
    	<li><a href="/tags.html#CUDA-ref">CUDA <span>2</span></a></li>
     
    	<li><a href="/tags.html#graphics processing unit (GPU)-ref">graphics processing unit (GPU) <span>1</span></a></li>
     
    	<li><a href="/tags.html#computational fluid dynamics (CFD)-ref">computational fluid dynamics (CFD) <span>1</span></a></li>
     
    	<li><a href="/tags.html#laminar flows-ref">laminar flows <span>1</span></a></li>
     
    	<li><a href="/tags.html#turbulent flow-ref">turbulent flow <span>1</span></a></li>
     
    	<li><a href="/tags.html#reactive flow-ref">reactive flow <span>1</span></a></li>
     
    	<li><a href="/tags.html#mechanism reduction-ref">mechanism reduction <span>3</span></a></li>
     
    	<li><a href="/tags.html#multicomponent fuels-ref">multicomponent fuels <span>1</span></a></li>
     
    	<li><a href="/tags.html#directed relation graph methods-ref">directed relation graph methods <span>1</span></a></li>
     
    	<li><a href="/tags.html#gasoline-ref">gasoline <span>5</span></a></li>
     
    	<li><a href="/tags.html#DRGEPSA-ref">DRGEPSA <span>2</span></a></li>
     
    	<li><a href="/tags.html#QSS-ref">QSS <span>1</span></a></li>
     
    	<li><a href="/tags.html#isomer lumping-ref">isomer lumping <span>1</span></a></li>
     
    	<li><a href="/tags.html#dynamic adaptive chemistry-ref">dynamic adaptive chemistry <span>1</span></a></li>
     
    	<li><a href="/tags.html#directed relation graph with error propagation-ref">directed relation graph with error propagation <span>1</span></a></li>
     
    	<li><a href="/tags.html#target species selection-ref">target species selection <span>1</span></a></li>
     
    	<li><a href="/tags.html#low-temperature combustion-ref">low-temperature combustion <span>1</span></a></li>
     
    	<li><a href="/tags.html#HCCI engines-ref">HCCI engines <span>1</span></a></li>
     
    	<li><a href="/tags.html#octane number-ref">octane number <span>2</span></a></li>
     
    	<li><a href="/tags.html#combustion-ref">combustion <span>2</span></a></li>
     
    	<li><a href="/tags.html#fuels-ref">fuels <span>1</span></a></li>
     
    	<li><a href="/tags.html#internal combustion engines-ref">internal combustion engines <span>1</span></a></li>
     
    	<li><a href="/tags.html#homogeneous charge compression ignition-ref">homogeneous charge compression ignition <span>1</span></a></li>
     
    	<li><a href="/tags.html#skeletal model-ref">skeletal model <span>2</span></a></li>
     
    	<li><a href="/tags.html#hydrocarbons-ref">hydrocarbons <span>1</span></a></li>
     
    	<li><a href="/tags.html#kerosene-ref">kerosene <span>1</span></a></li>
     
    	<li><a href="/tags.html#counterflow ignition-ref">counterflow ignition <span>1</span></a></li>
     
    	<li><a href="/tags.html#butanol-ref">butanol <span>3</span></a></li>
     
    	<li><a href="/tags.html#non-premixed-ref">non-premixed <span>1</span></a></li>
     
    	<li><a href="/tags.html#software citation-ref">software citation <span>3</span></a></li>
     
    	<li><a href="/tags.html#software credit-ref">software credit <span>3</span></a></li>
     
    	<li><a href="/tags.html#attribution-ref">attribution <span>2</span></a></li>
     
    	<li><a href="/tags.html#research software-ref">research software <span>1</span></a></li>
     
    	<li><a href="/tags.html#software sustainability-ref">software sustainability <span>1</span></a></li>
     
    	<li><a href="/tags.html#software metrics-ref">software metrics <span>1</span></a></li>
     
    	<li><a href="/tags.html#infrared spectroscopy-ref">infrared spectroscopy <span>1</span></a></li>
     
    	<li><a href="/tags.html#principal component regression-ref">principal component regression <span>1</span></a></li>
     
    	<li><a href="/tags.html#team-ref">team <span>9</span></a></li>
     
    	<li><a href="/tags.html#Jacobian-ref">Jacobian <span>2</span></a></li>
     
    	<li><a href="/tags.html#SIMD-ref">SIMD <span>3</span></a></li>
     
    	<li><a href="/tags.html#outreach-ref">outreach <span>1</span></a></li>
     
    	<li><a href="/tags.html#media-ref">media <span>8</span></a></li>
     
    	<li><a href="/tags.html#integration algorithms-ref">integration algorithms <span>2</span></a></li>
     
    	<li><a href="/tags.html#SIMT-ref">SIMT <span>3</span></a></li>
     
    	<li><a href="/tags.html#peer review-ref">peer review <span>1</span></a></li>
     
    	<li><a href="/tags.html#publishing-ref">publishing <span>1</span></a></li>
     
    	<li><a href="/tags.html#chemical kinetic models-ref">chemical kinetic models <span>1</span></a></li>
     
    	<li><a href="/tags.html#model comparison-ref">model comparison <span>1</span></a></li>
     
    	<li><a href="/tags.html#uncertainty-ref">uncertainty <span>1</span></a></li>
     
    	<li><a href="/tags.html#GPU computing-ref">GPU computing <span>1</span></a></li>
     
    	<li><a href="/tags.html#partial differential equations-ref">partial differential equations <span>2</span></a></li>
     
    	<li><a href="/tags.html#computational fluid dynamics-ref">computational fluid dynamics <span>2</span></a></li>
     
    	<li><a href="/tags.html#High-performance computing-ref">High-performance computing <span>1</span></a></li>
     
    	<li><a href="/tags.html#communication-avoiding algorithms-ref">communication-avoiding algorithms <span>2</span></a></li>
     
    	<li><a href="/tags.html#domain decomposition-ref">domain decomposition <span>2</span></a></li>
     
    	<li><a href="/tags.html#Chemical kinetics-ref">Chemical kinetics <span>3</span></a></li>
     
    	<li><a href="/tags.html#Experimental data-ref">Experimental data <span>1</span></a></li>
     
    	<li><a href="/tags.html#Autoignition-ref">Autoignition <span>1</span></a></li>
     
    	<li><a href="/tags.html#Data standard-ref">Data standard <span>1</span></a></li>
     
    	<li><a href="/tags.html#ChemKED-ref">ChemKED <span>1</span></a></li>
     
    	<li><a href="/tags.html#sustainability-ref">sustainability <span>1</span></a></li>
     
    	<li><a href="/tags.html#sustainable software-ref">sustainable software <span>1</span></a></li>
     
    	<li><a href="/tags.html#open source software-ref">open source software <span>1</span></a></li>
     
    	<li><a href="/tags.html#software development-ref">software development <span>1</span></a></li>
     
    	<li><a href="/tags.html#Research software-ref">Research software <span>1</span></a></li>
     
    	<li><a href="/tags.html#Code review-ref">Code review <span>1</span></a></li>
     
    	<li><a href="/tags.html#Computational research-ref">Computational research <span>1</span></a></li>
     
    	<li><a href="/tags.html#Software citation-ref">Software citation <span>1</span></a></li>
     
    	<li><a href="/tags.html#Open-source software-ref">Open-source software <span>1</span></a></li>
     
    	<li><a href="/tags.html#Scholarly publishing-ref">Scholarly publishing <span>1</span></a></li>
     
    	<li><a href="/tags.html#Integration algorithms-ref">Integration algorithms <span>1</span></a></li>
     
    	<li><a href="/tags.html#Stiff ODEs-ref">Stiff ODEs <span>1</span></a></li>
     
    	<li><a href="/tags.html#Vacuum arc remelting-ref">Vacuum arc remelting <span>1</span></a></li>
     
    	<li><a href="/tags.html#electrical arc-ref">electrical arc <span>1</span></a></li>
     
    	<li><a href="/tags.html#finite element analysis-ref">finite element analysis <span>1</span></a></li>
     
    	<li><a href="/tags.html#magnetostatics-ref">magnetostatics <span>1</span></a></li>
     
    	<li><a href="/tags.html#open science-ref">open science <span>2</span></a></li>
     
    	<li><a href="/tags.html#open engineering-ref">open engineering <span>1</span></a></li>
     
    	<li><a href="/tags.html#engineering-ref">engineering <span>1</span></a></li>
     
    	<li><a href="/tags.html#open access-ref">open access <span>1</span></a></li>
     
    	<li><a href="/tags.html#research dissemination-ref">research dissemination <span>1</span></a></li>
     
    	<li><a href="/tags.html#FACE gasolines-ref">FACE gasolines <span>2</span></a></li>
     
    	<li><a href="/tags.html#multivariate optimization-ref">multivariate optimization <span>1</span></a></li>
     
    	<li><a href="/tags.html#Forest fires-ref">Forest fires <span>2</span></a></li>
     
    	<li><a href="/tags.html#Smoldering combustion-ref">Smoldering combustion <span>2</span></a></li>
     
    	<li><a href="/tags.html#Cellulose-ref">Cellulose <span>2</span></a></li>
     
    	<li><a href="/tags.html#Hemicellulose-ref">Hemicellulose <span>2</span></a></li>
     
    	<li><a href="/tags.html#Sparse-ref">Sparse <span>1</span></a></li>
     
    	<li><a href="/tags.html#ocean-ref">ocean <span>1</span></a></li>
     
    	<li><a href="/tags.html#Langmuir turbulence-ref">Langmuir turbulence <span>1</span></a></li>
     
    	<li><a href="/tags.html#carbonate chemistry-ref">carbonate chemistry <span>1</span></a></li>
     
    	<li><a href="/tags.html#open scholarship-ref">open scholarship <span>1</span></a></li>
     
    	<li><a href="/tags.html#academia-ref">academia <span>1</span></a></li>
     
    	<li><a href="/tags.html#reproducibility-ref">reproducibility <span>1</span></a></li>
     
    	<li><a href="/tags.html#data science-ref">data science <span>1</span></a></li>
     
    	<li><a href="/tags.html#credit-ref">credit <span>1</span></a></li>
     
    	<li><a href="/tags.html#education-ref">education <span>1</span></a></li>
     
    	<li><a href="/tags.html#atmospheric chemistry-ref">atmospheric chemistry <span>1</span></a></li>
     
    	<li><a href="/tags.html#software-ref">software <span>1</span></a></li>
     
    	<li><a href="/tags.html#wildland fire-ref">wildland fire <span>1</span></a></li>
     
    	<li><a href="/tags.html#Douglas Fir-ref">Douglas Fir <span>1</span></a></li>
     
    	<li><a href="/tags.html#biomass-ref">biomass <span>1</span></a></li>
     
    	<li><a href="/tags.html#Python-ref">Python <span>1</span></a></li>
     
    	<li><a href="/tags.html#turbulent flames-ref">turbulent flames <span>2</span></a></li>
     
    	<li><a href="/tags.html#direct numerical simulation-ref">direct numerical simulation <span>1</span></a></li>
     
    	<li><a href="/tags.html#multicomponent diffusion-ref">multicomponent diffusion <span>1</span></a></li>
     
    	<li><a href="/tags.html#mixture-averaged diffusion-ref">mixture-averaged diffusion <span>1</span></a></li>
     
    	<li><a href="/tags.html#heterogeneous computing-ref">heterogeneous computing <span>1</span></a></li>
     
    	<li><a href="/tags.html#DNS-ref">DNS <span>1</span></a></li>
     
    	<li><a href="/tags.html#diffusion-ref">diffusion <span>1</span></a></li>
    
  



</ul>


 
  <h2 id="bone remodeling-ref">bone remodeling</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/bone-imaging">Three-dimensional surface texture visualization of bone tissue through epifluorescence-based serial block face imaging</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="cancellous bone-ref">cancellous bone</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/bone-imaging">Three-dimensional surface texture visualization of bone tissue through epifluorescence-based serial block face imaging</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="epifluorescence microscopy-ref">epifluorescence microscopy</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/bone-imaging">Three-dimensional surface texture visualization of bone tissue through epifluorescence-based serial block face imaging</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="fluorescence imaging-ref">fluorescence imaging</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/bone-imaging">Three-dimensional surface texture visualization of bone tissue through epifluorescence-based serial block face imaging</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="histomorphometry-ref">histomorphometry</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/bone-imaging">Three-dimensional surface texture visualization of bone tissue through epifluorescence-based serial block face imaging</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="image processing-ref">image processing</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/bone-imaging">Three-dimensional surface texture visualization of bone tissue through epifluorescence-based serial block face imaging</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Mechanism reduction-ref">Mechanism reduction</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/kerosene-model-reduction">Development of efficient and accurate skeletal mechanisms for hydrocarbon fuels and kerosene surrogate</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/graph-search">On the importance of graph search algorithms for DRGEP-based mechanism reduction methods</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/skeletal-reduction">Skeletal mechanism generation for surrogate fuels using directed relation graph with error propagation and sensitivity analysis</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="model reduction-ref">model reduction</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/pymars-joss">pyMARS: automatically reducing chemical kinetic models in Python</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/douglas-fir-reduced-model">Reduced Gas-Phase Kinetic Models for Burning of Douglas Fir</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/CAABA-MECCA">The community atmospheric chemistry box model CAABA/MECCA-4.0</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/butanol-skeletal-models">Reduced chemistry for butanol isomers at engine-relevant conditions</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/kerosene-model-reduction">Development of efficient and accurate skeletal mechanisms for hydrocarbon fuels and kerosene surrogate</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/reduced-gasoline-surrogate">Reduced chemistry for a gasoline surrogate valid at engine-relevant conditions</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/multicomponent-reduction">Mechanism reduction for multicomponent surrogates: a case study using toluene reference fuels</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/graph-search">On the importance of graph search algorithms for DRGEP-based mechanism reduction methods</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/skeletal-reduction">Skeletal mechanism generation for surrogate fuels using directed relation graph with error propagation and sensitivity analysis</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="directed relation graph-ref">directed relation graph</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/kerosene-model-reduction">Development of efficient and accurate skeletal mechanisms for hydrocarbon fuels and kerosene surrogate</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/skeletal-reduction">Skeletal mechanism generation for surrogate fuels using directed relation graph with error propagation and sensitivity analysis</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="skeletal mechanism-ref">skeletal mechanism</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/multicomponent-reduction">Mechanism reduction for multicomponent surrogates: a case study using toluene reference fuels</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/graph-search">On the importance of graph search algorithms for DRGEP-based mechanism reduction methods</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/skeletal-reduction">Skeletal mechanism generation for surrogate fuels using directed relation graph with error propagation and sensitivity analysis</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="surrogate fuels-ref">surrogate fuels</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/FTIR-LTC">Predicting fuel low-temperature combustion performance using Fourier-transform infrared absorption spectra of neat hydrocarbons</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/FACE-surrogates">FACE gasoline surrogates formulated by an enhanced multivariate optimization framework</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/multicomponent-reduction">Mechanism reduction for multicomponent surrogates: a case study using toluene reference fuels</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/skeletal-reduction">Skeletal mechanism generation for surrogate fuels using directed relation graph with error propagation and sensitivity analysis</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="n-heptane-ref">n-heptane</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/skeletal-reduction">Skeletal mechanism generation for surrogate fuels using directed relation graph with error propagation and sensitivity analysis</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="iso-octane-ref">iso-octane</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/skeletal-reduction">Skeletal mechanism generation for surrogate fuels using directed relation graph with error propagation and sensitivity analysis</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="n-decane-ref">n-decane</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/skeletal-reduction">Skeletal mechanism generation for surrogate fuels using directed relation graph with error propagation and sensitivity analysis</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="DRG-ref">DRG</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/graph-search">On the importance of graph search algorithms for DRGEP-based mechanism reduction methods</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="DRGEP-ref">DRGEP</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/graph-search">On the importance of graph search algorithms for DRGEP-based mechanism reduction methods</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="graph search algorithm-ref">graph search algorithm</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/graph-search">On the importance of graph search algorithms for DRGEP-based mechanism reduction methods</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Dijkstra's algorithm-ref">Dijkstra's algorithm</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/graph-search">On the importance of graph search algorithms for DRGEP-based mechanism reduction methods</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="reactive-flow modeling-ref">reactive-flow modeling</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/moderately-stiff-GPU">Accelerating moderately stiff chemical kinetics in reactive-flow simulations using GPUs</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="GPU-ref">GPU</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/cpc-chemistry-vectorization">Accelerating finite-rate chemical kinetics with coprocessors: Comparing vectorization methods on GPUs, MICs, and CPUs</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/stiff-GPU-integrators">An investigation of GPU-based stiff chemical kinetics integration methods</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/oil-water-natural-gas-engine">Effects of oil and water contamination on natural gas engine combustion processes</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/pyjac-paper">pyJac: Analytical Jacobian generator for chemical kinetics</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/moderately-stiff-GPU">Accelerating moderately stiff chemical kinetics in reactive-flow simulations using GPUs</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="chemical kinetics-ref">chemical kinetics</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/pymars-joss">pyMARS: automatically reducing chemical kinetic models in Python</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/douglas-fir-reduced-model">Reduced Gas-Phase Kinetic Models for Burning of Douglas Fir</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/stiff-GPU-integrators">An investigation of GPU-based stiff chemical kinetics integration methods</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/oil-water-natural-gas-engine">Effects of oil and water contamination on natural gas engine combustion processes</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/pyjac-paper">pyJac: Analytical Jacobian generator for chemical kinetics</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/butanol-skeletal-models">Reduced chemistry for butanol isomers at engine-relevant conditions</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/moderately-stiff-GPU">Accelerating moderately stiff chemical kinetics in reactive-flow simulations using GPUs</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="stiff chemistry-ref">stiff chemistry</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/stiff-GPU-integrators">An investigation of GPU-based stiff chemical kinetics integration methods</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/oil-water-natural-gas-engine">Effects of oil and water contamination on natural gas engine combustion processes</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/moderately-stiff-GPU">Accelerating moderately stiff chemical kinetics in reactive-flow simulations using GPUs</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="CUDA-ref">CUDA</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/review-GPU-CFD">Recent progress and challenges in exploiting graphics processors in computational fluid dynamics</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/moderately-stiff-GPU">Accelerating moderately stiff chemical kinetics in reactive-flow simulations using GPUs</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="graphics processing unit (GPU)-ref">graphics processing unit (GPU)</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/review-GPU-CFD">Recent progress and challenges in exploiting graphics processors in computational fluid dynamics</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="computational fluid dynamics (CFD)-ref">computational fluid dynamics (CFD)</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/review-GPU-CFD">Recent progress and challenges in exploiting graphics processors in computational fluid dynamics</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="laminar flows-ref">laminar flows</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/review-GPU-CFD">Recent progress and challenges in exploiting graphics processors in computational fluid dynamics</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="turbulent flow-ref">turbulent flow</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/review-GPU-CFD">Recent progress and challenges in exploiting graphics processors in computational fluid dynamics</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="reactive flow-ref">reactive flow</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/review-GPU-CFD">Recent progress and challenges in exploiting graphics processors in computational fluid dynamics</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="mechanism reduction-ref">mechanism reduction</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/target-species-selection">An automated target species selection method for dynamic adaptive chemistry simulations</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/reduced-gasoline-surrogate">Reduced chemistry for a gasoline surrogate valid at engine-relevant conditions</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/multicomponent-reduction">Mechanism reduction for multicomponent surrogates: a case study using toluene reference fuels</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="multicomponent fuels-ref">multicomponent fuels</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/multicomponent-reduction">Mechanism reduction for multicomponent surrogates: a case study using toluene reference fuels</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="directed relation graph methods-ref">directed relation graph methods</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/multicomponent-reduction">Mechanism reduction for multicomponent surrogates: a case study using toluene reference fuels</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="gasoline-ref">gasoline</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/FTIR-LTC">Predicting fuel low-temperature combustion performance using Fourier-transform infrared absorption spectra of neat hydrocarbons</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/FACE-surrogates">FACE gasoline surrogates formulated by an enhanced multivariate optimization framework</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/RON-FTIR">Predicting fuel research octane number using Fourier-transform infrared absorption spectra of neat hydrocarbons</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/LTC-index-oxygenated">Investigation of the LTC fuel performance index for oxygenated reference fuel blends</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/reduced-gasoline-surrogate">Reduced chemistry for a gasoline surrogate valid at engine-relevant conditions</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="DRGEPSA-ref">DRGEPSA</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/butanol-skeletal-models">Reduced chemistry for butanol isomers at engine-relevant conditions</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/reduced-gasoline-surrogate">Reduced chemistry for a gasoline surrogate valid at engine-relevant conditions</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="QSS-ref">QSS</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/reduced-gasoline-surrogate">Reduced chemistry for a gasoline surrogate valid at engine-relevant conditions</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="isomer lumping-ref">isomer lumping</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/reduced-gasoline-surrogate">Reduced chemistry for a gasoline surrogate valid at engine-relevant conditions</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="dynamic adaptive chemistry-ref">dynamic adaptive chemistry</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/target-species-selection">An automated target species selection method for dynamic adaptive chemistry simulations</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="directed relation graph with error propagation-ref">directed relation graph with error propagation</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/target-species-selection">An automated target species selection method for dynamic adaptive chemistry simulations</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="target species selection-ref">target species selection</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/target-species-selection">An automated target species selection method for dynamic adaptive chemistry simulations</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="low-temperature combustion-ref">low-temperature combustion</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/LTC-index-oxygenated">Investigation of the LTC fuel performance index for oxygenated reference fuel blends</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="HCCI engines-ref">HCCI engines</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/LTC-index-oxygenated">Investigation of the LTC fuel performance index for oxygenated reference fuel blends</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="octane number-ref">octane number</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/RON-FTIR">Predicting fuel research octane number using Fourier-transform infrared absorption spectra of neat hydrocarbons</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/LTC-index-oxygenated">Investigation of the LTC fuel performance index for oxygenated reference fuel blends</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="combustion-ref">combustion</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/multicomponent-diffusion-flame">Assessing the impact of multicomponent diffusion in direct numerical simulations of premixed, high-Karlovitz, turbulent flames</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/LTC-index">A novel fuel performance index for LTC engines based on operating envelopes in light-duty driving cycle simulations</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="fuels-ref">fuels</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/LTC-index">A novel fuel performance index for LTC engines based on operating envelopes in light-duty driving cycle simulations</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="internal combustion engines-ref">internal combustion engines</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/LTC-index">A novel fuel performance index for LTC engines based on operating envelopes in light-duty driving cycle simulations</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="homogeneous charge compression ignition-ref">homogeneous charge compression ignition</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/LTC-index">A novel fuel performance index for LTC engines based on operating envelopes in light-duty driving cycle simulations</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="skeletal model-ref">skeletal model</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/nbutanol-counterflow">Counterflow ignition of <i>n</i>-butanol at atmospheric and elevated pressures</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/kerosene-model-reduction">Development of efficient and accurate skeletal mechanisms for hydrocarbon fuels and kerosene surrogate</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="hydrocarbons-ref">hydrocarbons</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/kerosene-model-reduction">Development of efficient and accurate skeletal mechanisms for hydrocarbon fuels and kerosene surrogate</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="kerosene-ref">kerosene</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/kerosene-model-reduction">Development of efficient and accurate skeletal mechanisms for hydrocarbon fuels and kerosene surrogate</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="counterflow ignition-ref">counterflow ignition</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/nbutanol-counterflow">Counterflow ignition of <i>n</i>-butanol at atmospheric and elevated pressures</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="butanol-ref">butanol</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/model-parameter-discrepancy">Assessing impacts of discrepancies in model parameters on autoignition model performance: A case study using butanol</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/butanol-skeletal-models">Reduced chemistry for butanol isomers at engine-relevant conditions</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/nbutanol-counterflow">Counterflow ignition of <i>n</i>-butanol at atmospheric and elevated pressures</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="non-premixed-ref">non-premixed</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/nbutanol-counterflow">Counterflow ignition of <i>n</i>-butanol at atmospheric and elevated pressures</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="software citation-ref">software citation</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/wssspe3-report">Report on the Third Workshop on Sustainable Software for Science: Practice and Experiences (WSSSPE3)</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/software-citation-challenge">The challenge and promise of software citation for credit, identification, discovery, and reuse</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/software-citation-principles">Software citation principles</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="software credit-ref">software credit</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/wssspe3-report">Report on the Third Workshop on Sustainable Software for Science: Practice and Experiences (WSSSPE3)</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/software-citation-challenge">The challenge and promise of software citation for credit, identification, discovery, and reuse</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/software-citation-principles">Software citation principles</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="attribution-ref">attribution</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/software-citation-challenge">The challenge and promise of software citation for credit, identification, discovery, and reuse</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/software-citation-principles">Software citation principles</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="research software-ref">research software</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/wssspe3-report">Report on the Third Workshop on Sustainable Software for Science: Practice and Experiences (WSSSPE3)</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="software sustainability-ref">software sustainability</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/wssspe3-report">Report on the Third Workshop on Sustainable Software for Science: Practice and Experiences (WSSSPE3)</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="software metrics-ref">software metrics</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/wssspe3-report">Report on the Third Workshop on Sustainable Software for Science: Practice and Experiences (WSSSPE3)</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="infrared spectroscopy-ref">infrared spectroscopy</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/RON-FTIR">Predicting fuel research octane number using Fourier-transform infrared absorption spectra of neat hydrocarbons</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="principal component regression-ref">principal component regression</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/RON-FTIR">Predicting fuel research octane number using Fourier-transform infrared absorption spectra of neat hydrocarbons</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="team-ref">team</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/tenure-emily">Kyle receives tenure, Emily defends MS</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/af-defended">AJ successfully defended his PhD</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/phil-featured">Phil featured in Honors Link</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/aj-featured-newspaper">AJ featured in Gazette-Times</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/dan-andrew-luz-defended">NRG group MS defenses</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/liblab-local-news">AJ in Gazette-Times</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/NRG-featured-news">NRG in the news</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/pilot-liblab-video">AJ in the news</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/kyle-faculty-spotlight">Kyle featured in faculty spotlight article</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Jacobian-ref">Jacobian</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/simd-simt-pyjac2">Using SIMD and SIMT vectorization to evaluate sparse chemical kinetic Jacobian matrices and thermochemical source terms</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/pyjac-paper">pyJac: Analytical Jacobian generator for chemical kinetics</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="SIMD-ref">SIMD</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/simd-simt-pyjac2">Using SIMD and SIMT vectorization to evaluate sparse chemical kinetic Jacobian matrices and thermochemical source terms</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/cpc-chemistry-vectorization">Accelerating finite-rate chemical kinetics with coprocessors: Comparing vectorization methods on GPUs, MICs, and CPUs</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/pyjac-paper">pyJac: Analytical Jacobian generator for chemical kinetics</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="outreach-ref">outreach</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/pilot-liblab-video">AJ in the news</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="media-ref">media</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/tenure-emily">Kyle receives tenure, Emily defends MS</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/af-defended">AJ successfully defended his PhD</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/phil-featured">Phil featured in Honors Link</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/aj-featured-newspaper">AJ featured in Gazette-Times</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/dan-andrew-luz-defended">NRG group MS defenses</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/liblab-local-news">AJ in Gazette-Times</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/NRG-featured-news">NRG in the news</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/news/pilot-liblab-video">AJ in the news</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="integration algorithms-ref">integration algorithms</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/stiff-GPU-integrators">An investigation of GPU-based stiff chemical kinetics integration methods</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/oil-water-natural-gas-engine">Effects of oil and water contamination on natural gas engine combustion processes</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="SIMT-ref">SIMT</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/simd-simt-pyjac2">Using SIMD and SIMT vectorization to evaluate sparse chemical kinetic Jacobian matrices and thermochemical source terms</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/stiff-GPU-integrators">An investigation of GPU-based stiff chemical kinetics integration methods</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/oil-water-natural-gas-engine">Effects of oil and water contamination on natural gas engine combustion processes</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="peer review-ref">peer review</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/peer-review">A multi-disciplinary perspective on emergent and future innovations in peer review</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="publishing-ref">publishing</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/peer-review">A multi-disciplinary perspective on emergent and future innovations in peer review</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="chemical kinetic models-ref">chemical kinetic models</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/model-parameter-discrepancy">Assessing impacts of discrepancies in model parameters on autoignition model performance: A case study using butanol</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="model comparison-ref">model comparison</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/model-parameter-discrepancy">Assessing impacts of discrepancies in model parameters on autoignition model performance: A case study using butanol</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="uncertainty-ref">uncertainty</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/model-parameter-discrepancy">Assessing impacts of discrepancies in model parameters on autoignition model performance: A case study using butanol</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="GPU computing-ref">GPU computing</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/GPU-swept-rule-1D">Accelerating solutions of one-dimensional unsteady PDEs with GPU-based swept time–space decomposition</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="partial differential equations-ref">partial differential equations</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/swept-heterogeneous">Applying the swept rule for solving explicit partial differential equations on heterogeneous computing systems</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/GPU-swept-rule-1D">Accelerating solutions of one-dimensional unsteady PDEs with GPU-based swept time–space decomposition</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="computational fluid dynamics-ref">computational fluid dynamics</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/swept-heterogeneous">Applying the swept rule for solving explicit partial differential equations on heterogeneous computing systems</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/GPU-swept-rule-1D">Accelerating solutions of one-dimensional unsteady PDEs with GPU-based swept time–space decomposition</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="High-performance computing-ref">High-performance computing</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/GPU-swept-rule-1D">Accelerating solutions of one-dimensional unsteady PDEs with GPU-based swept time–space decomposition</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="communication-avoiding algorithms-ref">communication-avoiding algorithms</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/swept-heterogeneous">Applying the swept rule for solving explicit partial differential equations on heterogeneous computing systems</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/GPU-swept-rule-1D">Accelerating solutions of one-dimensional unsteady PDEs with GPU-based swept time–space decomposition</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="domain decomposition-ref">domain decomposition</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/swept-heterogeneous">Applying the swept rule for solving explicit partial differential equations on heterogeneous computing systems</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/GPU-swept-rule-1D">Accelerating solutions of one-dimensional unsteady PDEs with GPU-based swept time–space decomposition</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Chemical kinetics-ref">Chemical kinetics</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/simd-simt-pyjac2">Using SIMD and SIMT vectorization to evaluate sparse chemical kinetic Jacobian matrices and thermochemical source terms</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/cpc-chemistry-vectorization">Accelerating finite-rate chemical kinetics with coprocessors: Comparing vectorization methods on GPUs, MICs, and CPUs</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/chemked-ijck">ChemKED: A human- and machine-readable data standard for chemical kinetics experiments</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Experimental data-ref">Experimental data</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/chemked-ijck">ChemKED: A human- and machine-readable data standard for chemical kinetics experiments</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Autoignition-ref">Autoignition</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/chemked-ijck">ChemKED: A human- and machine-readable data standard for chemical kinetics experiments</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Data standard-ref">Data standard</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/chemked-ijck">ChemKED: A human- and machine-readable data standard for chemical kinetics experiments</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="ChemKED-ref">ChemKED</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/chemked-ijck">ChemKED: A human- and machine-readable data standard for chemical kinetics experiments</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="sustainability-ref">sustainability</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/wssspe4-jors">Fourth Workshop on Sustainable Software for Science: Practice and Experiences (WSSSPE4)</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="sustainable software-ref">sustainable software</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/wssspe4-jors">Fourth Workshop on Sustainable Software for Science: Practice and Experiences (WSSSPE4)</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="open source software-ref">open source software</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/wssspe4-jors">Fourth Workshop on Sustainable Software for Science: Practice and Experiences (WSSSPE4)</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="software development-ref">software development</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/wssspe4-jors">Fourth Workshop on Sustainable Software for Science: Practice and Experiences (WSSSPE4)</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Research software-ref">Research software</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/joss-peerjcs">Journal of Open Source Software (JOSS): design and first-year review</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Code review-ref">Code review</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/joss-peerjcs">Journal of Open Source Software (JOSS): design and first-year review</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Computational research-ref">Computational research</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/joss-peerjcs">Journal of Open Source Software (JOSS): design and first-year review</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Software citation-ref">Software citation</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/joss-peerjcs">Journal of Open Source Software (JOSS): design and first-year review</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Open-source software-ref">Open-source software</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/joss-peerjcs">Journal of Open Source Software (JOSS): design and first-year review</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Scholarly publishing-ref">Scholarly publishing</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/joss-peerjcs">Journal of Open Source Software (JOSS): design and first-year review</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Integration algorithms-ref">Integration algorithms</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/cpc-chemistry-vectorization">Accelerating finite-rate chemical kinetics with coprocessors: Comparing vectorization methods on GPUs, MICs, and CPUs</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Stiff ODEs-ref">Stiff ODEs</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/cpc-chemistry-vectorization">Accelerating finite-rate chemical kinetics with coprocessors: Comparing vectorization methods on GPUs, MICs, and CPUs</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Vacuum arc remelting-ref">Vacuum arc remelting</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/jmse-aps-analysis">Analysis of an approach for detecting arc positions during vacuum arc remelting based on magnetic flux density measurements</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="electrical arc-ref">electrical arc</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/jmse-aps-analysis">Analysis of an approach for detecting arc positions during vacuum arc remelting based on magnetic flux density measurements</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="finite element analysis-ref">finite element analysis</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/jmse-aps-analysis">Analysis of an approach for detecting arc positions during vacuum arc remelting based on magnetic flux density measurements</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="magnetostatics-ref">magnetostatics</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/jmse-aps-analysis">Analysis of an approach for detecting arc positions during vacuum arc remelting based on magnetic flux density measurements</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="open science-ref">open science</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/tomorrows-university">The principles of tomorrow's university</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/openness-engineering">The case for openness in engineering research</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="open engineering-ref">open engineering</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/openness-engineering">The case for openness in engineering research</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="engineering-ref">engineering</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/openness-engineering">The case for openness in engineering research</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="open access-ref">open access</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/openness-engineering">The case for openness in engineering research</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="research dissemination-ref">research dissemination</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/openness-engineering">The case for openness in engineering research</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="FACE gasolines-ref">FACE gasolines</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/FTIR-LTC">Predicting fuel low-temperature combustion performance using Fourier-transform infrared absorption spectra of neat hydrocarbons</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/FACE-surrogates">FACE gasoline surrogates formulated by an enhanced multivariate optimization framework</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="multivariate optimization-ref">multivariate optimization</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/FACE-surrogates">FACE gasoline surrogates formulated by an enhanced multivariate optimization framework</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Forest fires-ref">Forest fires</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/smoldering-exp-comp-poci">Effects of fuel content and density on the smoldering characteristics of cellulose and hemicellulose</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/smoldering-mixtures-poci">Computational study of the effects of density, fuel content, and moisture content on smoldering propagation of cellulose and hemicellulose mixtures</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Smoldering combustion-ref">Smoldering combustion</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/smoldering-exp-comp-poci">Effects of fuel content and density on the smoldering characteristics of cellulose and hemicellulose</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/smoldering-mixtures-poci">Computational study of the effects of density, fuel content, and moisture content on smoldering propagation of cellulose and hemicellulose mixtures</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Cellulose-ref">Cellulose</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/smoldering-exp-comp-poci">Effects of fuel content and density on the smoldering characteristics of cellulose and hemicellulose</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/smoldering-mixtures-poci">Computational study of the effects of density, fuel content, and moisture content on smoldering propagation of cellulose and hemicellulose mixtures</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Hemicellulose-ref">Hemicellulose</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/smoldering-exp-comp-poci">Effects of fuel content and density on the smoldering characteristics of cellulose and hemicellulose</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/smoldering-mixtures-poci">Computational study of the effects of density, fuel content, and moisture content on smoldering propagation of cellulose and hemicellulose mixtures</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Sparse-ref">Sparse</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/simd-simt-pyjac2">Using SIMD and SIMT vectorization to evaluate sparse chemical kinetic Jacobian matrices and thermochemical source terms</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="ocean-ref">ocean</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/langmuir-carbonate-chemistry">Effects of Langmuir turbulence on upper ocean carbonate chemistry</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Langmuir turbulence-ref">Langmuir turbulence</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/langmuir-carbonate-chemistry">Effects of Langmuir turbulence on upper ocean carbonate chemistry</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="carbonate chemistry-ref">carbonate chemistry</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/langmuir-carbonate-chemistry">Effects of Langmuir turbulence on upper ocean carbonate chemistry</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="open scholarship-ref">open scholarship</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/tomorrows-university">The principles of tomorrow's university</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="academia-ref">academia</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/tomorrows-university">The principles of tomorrow's university</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="reproducibility-ref">reproducibility</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/tomorrows-university">The principles of tomorrow's university</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="data science-ref">data science</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/tomorrows-university">The principles of tomorrow's university</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="credit-ref">credit</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/tomorrows-university">The principles of tomorrow's university</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="education-ref">education</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/tomorrows-university">The principles of tomorrow's university</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="atmospheric chemistry-ref">atmospheric chemistry</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/CAABA-MECCA">The community atmospheric chemistry box model CAABA/MECCA-4.0</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="software-ref">software</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/CAABA-MECCA">The community atmospheric chemistry box model CAABA/MECCA-4.0</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="wildland fire-ref">wildland fire</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/douglas-fir-reduced-model">Reduced Gas-Phase Kinetic Models for Burning of Douglas Fir</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Douglas Fir-ref">Douglas Fir</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/douglas-fir-reduced-model">Reduced Gas-Phase Kinetic Models for Burning of Douglas Fir</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="biomass-ref">biomass</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/douglas-fir-reduced-model">Reduced Gas-Phase Kinetic Models for Burning of Douglas Fir</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="Python-ref">Python</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/pymars-joss">pyMARS: automatically reducing chemical kinetic models in Python</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="turbulent flames-ref">turbulent flames</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/multicomponent-diffusion-flame">Assessing the impact of multicomponent diffusion in direct numerical simulations of premixed, high-Karlovitz, turbulent flames</a>
					</li>
      	  
				
      
    
  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/multicomponent-diffusion-method">A fast, low-memory, and stable algorithm for implementing multicomponent transport in direct numerical simulations</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="direct numerical simulation-ref">direct numerical simulation</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/multicomponent-diffusion-method">A fast, low-memory, and stable algorithm for implementing multicomponent transport in direct numerical simulations</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="multicomponent diffusion-ref">multicomponent diffusion</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/multicomponent-diffusion-method">A fast, low-memory, and stable algorithm for implementing multicomponent transport in direct numerical simulations</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="mixture-averaged diffusion-ref">mixture-averaged diffusion</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/multicomponent-diffusion-method">A fast, low-memory, and stable algorithm for implementing multicomponent transport in direct numerical simulations</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="heterogeneous computing-ref">heterogeneous computing</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/swept-heterogeneous">Applying the swept rule for solving explicit partial differential equations on heterogeneous computing systems</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="DNS-ref">DNS</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/multicomponent-diffusion-flame">Assessing the impact of multicomponent diffusion in direct numerical simulations of premixed, high-Karlovitz, turbulent flames</a>
					</li>
      	  
				
      
    
  



  </ul>
 
  <h2 id="diffusion-ref">diffusion</h2>
  <ul>
      
    


  
    
      	
      	
				  
					<li class="nav-item">
				  	<a class="nav-link" href="/papers/paper/multicomponent-diffusion-flame">Assessing the impact of multicomponent diffusion in direct numerical simulations of premixed, high-Karlovitz, turbulent flames</a>
					</li>
      	  
				
      
    
  



  </ul>


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